18203735. MULTI-COIL INDUCTION APPARATUS simplified abstract (Micron Technology, Inc.)
Contents
MULTI-COIL INDUCTION APPARATUS
Organization Name
Inventor(s)
Timothy Hollis of Meridian ID (US)
MULTI-COIL INDUCTION APPARATUS - A simplified explanation of the abstract
This abstract first appeared for US patent application 18203735 titled 'MULTI-COIL INDUCTION APPARATUS
Simplified Explanation
The patent application describes a multi-coil induction apparatus that includes a primary coil structure and a secondary coil structure.
- The primary coil structure consists of a primary first coil portion and a primary second coil portion, both located on the same flat surface.
- The secondary coil structure includes a secondary first coil portion and a secondary second coil portion, which are also on the same flat surface and parallel to the primary coil structure.
- The primary first coil portion and the secondary first coil portion are concentrically wound on the common flat surface, creating a coupled induction section.
- The primary second coil portion and the secondary second coil portion are positioned adjacent to the coupled induction section on the same flat surface.
Potential applications of this technology:
- Wireless power transfer systems
- Inductive charging for electric vehicles
- Inductive heating systems
- Inductive communication systems
Problems solved by this technology:
- Improved efficiency of power transfer
- Enhanced coupling between primary and secondary coils
- Simplified design and manufacturing process
Benefits of this technology:
- Increased power transfer efficiency
- Reduced energy loss
- Compact and space-saving design
- Cost-effective production process
Original Abstract Submitted
Systems, methods and apparatus are provided for a multi-coil induction apparatus. The multi-coil induction apparatus has a primary coil structure with a primary first coil portion and a primary second coil portion where both are on a common planar surface; and a secondary coil structure having a secondary first coil portion and a secondary second coil, where the secondary first coil portion and the secondary second coil portion are coplanar with the primary first coil portion and the primary second coil. The primary first coil portion and the secondary first coil portion concentrically turn on the common planar surface to form a coupled induction section while the primary second coil portion and the secondary second coil portion are adjacent the coupled induction section on the common planar surface.
